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https://github.com/ceph/ceph-csi.git
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e3bf375035
update kubernetes to latest v1.25.0 release. Signed-off-by: Madhu Rajanna <madhupr007@gmail.com>
126 lines
4.9 KiB
Go
126 lines
4.9 KiB
Go
package internal
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import (
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"regexp"
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"strings"
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"github.com/onsi/ginkgo/v2/types"
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)
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/*
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If a container marked as focus has a descendant that is also marked as focus, Ginkgo's policy is to
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unmark the container's focus. This gives developers a more intuitive experience when debugging specs.
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It is common to focus a container to just run a subset of specs, then identify the specific specs within the container to focus -
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this policy allows the developer to simply focus those specific specs and not need to go back and turn the focus off of the container:
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As a common example, consider:
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FDescribe("something to debug", function() {
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It("works", function() {...})
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It("works", function() {...})
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FIt("doesn't work", function() {...})
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It("works", function() {...})
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})
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here the developer's intent is to focus in on the `"doesn't work"` spec and not to run the adjacent specs in the focused `"something to debug"` container.
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The nested policy applied by this function enables this behavior.
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*/
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func ApplyNestedFocusPolicyToTree(tree *TreeNode) {
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var walkTree func(tree *TreeNode) bool
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walkTree = func(tree *TreeNode) bool {
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if tree.Node.MarkedPending {
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return false
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}
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hasFocusedDescendant := false
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for _, child := range tree.Children {
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childHasFocus := walkTree(child)
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hasFocusedDescendant = hasFocusedDescendant || childHasFocus
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}
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tree.Node.MarkedFocus = tree.Node.MarkedFocus && !hasFocusedDescendant
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return tree.Node.MarkedFocus || hasFocusedDescendant
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}
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walkTree(tree)
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}
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/*
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Ginkgo supports focussing specs using `FIt`, `FDescribe`, etc. - this is called "programmatic focus"
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It also supports focussing specs using regular expressions on the command line (`-focus=`, `-skip=`) that match against spec text
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and file filters (`-focus-files=`, `-skip-files=`) that match against code locations for nodes in specs.
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If any of the CLI flags are provided they take precedence. The file filters run first followed by the regex filters.
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This function sets the `Skip` property on specs by applying Ginkgo's focus policy:
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- If there are no CLI arguments and no programmatic focus, do nothing.
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- If there are no CLI arguments but a spec somewhere has programmatic focus, skip any specs that have no programmatic focus.
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- If there are CLI arguments parse them and skip any specs that either don't match the focus filters or do match the skip filters.
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*Note:* specs with pending nodes are Skipped when created by NewSpec.
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*/
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func ApplyFocusToSpecs(specs Specs, description string, suiteLabels Labels, suiteConfig types.SuiteConfig) (Specs, bool) {
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focusString := strings.Join(suiteConfig.FocusStrings, "|")
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skipString := strings.Join(suiteConfig.SkipStrings, "|")
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hasFocusCLIFlags := focusString != "" || skipString != "" || len(suiteConfig.SkipFiles) > 0 || len(suiteConfig.FocusFiles) > 0 || suiteConfig.LabelFilter != ""
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type SkipCheck func(spec Spec) bool
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// by default, skip any specs marked pending
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skipChecks := []SkipCheck{func(spec Spec) bool { return spec.Nodes.HasNodeMarkedPending() }}
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hasProgrammaticFocus := false
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if !hasFocusCLIFlags {
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// check for programmatic focus
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for _, spec := range specs {
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if spec.Nodes.HasNodeMarkedFocus() && !spec.Nodes.HasNodeMarkedPending() {
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skipChecks = append(skipChecks, func(spec Spec) bool { return !spec.Nodes.HasNodeMarkedFocus() })
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hasProgrammaticFocus = true
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break
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}
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}
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}
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if suiteConfig.LabelFilter != "" {
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labelFilter, _ := types.ParseLabelFilter(suiteConfig.LabelFilter)
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skipChecks = append(skipChecks, func(spec Spec) bool {
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return !labelFilter(UnionOfLabels(suiteLabels, spec.Nodes.UnionOfLabels()))
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})
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}
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if len(suiteConfig.FocusFiles) > 0 {
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focusFilters, _ := types.ParseFileFilters(suiteConfig.FocusFiles)
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skipChecks = append(skipChecks, func(spec Spec) bool { return !focusFilters.Matches(spec.Nodes.CodeLocations()) })
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}
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if len(suiteConfig.SkipFiles) > 0 {
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skipFilters, _ := types.ParseFileFilters(suiteConfig.SkipFiles)
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skipChecks = append(skipChecks, func(spec Spec) bool { return skipFilters.Matches(spec.Nodes.CodeLocations()) })
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}
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if focusString != "" {
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// skip specs that don't match the focus string
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re := regexp.MustCompile(focusString)
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skipChecks = append(skipChecks, func(spec Spec) bool { return !re.MatchString(description + " " + spec.Text()) })
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}
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if skipString != "" {
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// skip specs that match the skip string
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re := regexp.MustCompile(skipString)
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skipChecks = append(skipChecks, func(spec Spec) bool { return re.MatchString(description + " " + spec.Text()) })
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}
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// skip specs if shouldSkip() is true. note that we do nothing if shouldSkip() is false to avoid overwriting skip status established by the node's pending status
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processedSpecs := Specs{}
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for _, spec := range specs {
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for _, skipCheck := range skipChecks {
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if skipCheck(spec) {
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spec.Skip = true
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break
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}
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}
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processedSpecs = append(processedSpecs, spec)
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}
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return processedSpecs, hasProgrammaticFocus
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}
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